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Sara Sara

Coordinates: 15°19′46″S 73°26′41″W / 15.32944°S 73.44472°W / -15.32944; -73.44472
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Sara Sara
A snow-covered broad mountain rising over a lake with birds
Sara Sara and Lake Parinacochas in front of it
Highest point
Elevation5,505 m (18,061 ft)
Prominence2,060 m (6,760 ft)[1]
ListingUltra
Coordinates15°19′46″S 73°26′41″W / 15.32944°S 73.44472°W / -15.32944; -73.44472
Geography
Parent rangeAndes
Geology
Rock agePleistocene
Last eruptionUnknown; probable Holocene age[2]

Sara Sara is a 5,505-metre-high (18,061 ft) volcano lying between Lake Parinacochas and the Ocoña River in Peru.[3] It is situated in the Parinacochas Province and the Paucar del Sara Sara Province. The volcano formed during the Pleistocene during four different stages of volcanic activity, which constructed a volcanic edifice with an oval outline consisting of lava flows and lava domes. The volcano was glaciated during the last glacial maximum; it may still feature glaciers. The last eruption was about 14,000 years ago and future eruptions are possible. The volcano was worshipped by the local population, and an Inca mummy of a 15-year old girl was found on the summit by archaeologists.

Geography and geomorphology

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Sara Sara lies within the Cordillera Ampato [es] sub-range of the Andes.[4] Administratively, it is located in the Parinacochas and Paucar del Sara Sara Provinces of the Ayacucho Region, Peru.[5] The town of Pausa lies 12 kilometres (7.5 mi) away from the volcano, and agriculture occurs in the valleys of the area.[6] A disused road passes over the southern flank of the volcano and reaches an elevation of 4,600 metres (15,100 ft).[7]

The volcano is 5,505 metres (18,061 ft) high[8] and has an oval outline;[9] the summit lies at the southern end of a north-northwest-south-southeast trending summit ridge.[7] It consists of a complex of lava domes and lava flows superposed on older stratovolcanoes[10] and has a total volume of 20–25 cubic kilometres (4.8–6.0 cu mi), with the edifice rising about 1 kilometre (0.62 mi) above the surrounding terrain.[11] The vents are aligned in north-northeast-south-southwest direction and are accompanied by lateral lava domes. These vents were the source of lava flows and block-and-ash flows generated by the collapse of lava domes.[12] Thick ash deposits underlie viscous lava flows that define the "Mollebamba Volcanics"[7] and reach lengths of 15 kilometres (9.3 mi).[13] A pyroclastic cone of recent age is found on the mountain[14] and a recent lava flow descends the eastern flank.[3] The western flank is heavily eroded.[9] West of the volcano is Lake Parinacochas to its east is the Ocoña River.[3]

Glaciers

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Glacial cirques,[15] glacial valleys[16] and numerous moraines surround the volcano.[17] Two past glaciations have been described, "Sara Sara II" which descended to about 4,500 metres (14,800 ft) elevation and also encompassed several peaks south of Sara Sara such as the 4,703 metres (15,430 ft) high Cerro Puca Puca, and "Sara Sara I" which has left moraine networks at lower elevations especially on the southwestern flank. The lowest moraines on the western flank occur at 4,000–4,100 metres (13,100–13,500 ft) while these on the eastern flank only reach 4,300 metres (14,100 ft), presumably because of the effects of later volcanism that erased other moraines.[18] Some of these encompass closed depressions.[19] A third set of moraines at higher elevations appears to correspond to the neoglacial.[20] The last glacial maximum at Sara Sara occurred between 24,000 and 17,000 years ago[21] and the equilibrium line altitude descended to 4,500–4,800 metres (14,800–15,700 ft).[4]

Presently, it reaches 5,200 metres (17,100 ft) elevation at Sara Sara.[22] The mountain has been called glaciated,[23] with an ice cap covering approximately 20 square kilometres (7.7 sq mi),[3] and alternatively, it has been stated that it only has a temporary snow cover.[15] Active rock glaciers extend below the snowline on the western and northern flanks, and inactive rock glaciers are found at lower elevations.[7] Water used for irrigation originates at Sara Sara's foot.[24]

Geology

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The Quaternary volcanoes of Peru are part of the Central Volcanic Zone (CVZ) of the Andes[25] and Sara Sara is the northernmost member.[10] The CVZ features consists of two arcs of volcanoes on both sides of the Western Cordillera[26] and features composite volcanoes, lava domes and lava flows, of which El Misti, Huaynaputina, Sabancaya, Ticsani, Tutupaca, Ubinas and Yucamane have been active in historical times. Ampato, Chachani, Casiri, Coropuna and Sara Sara are dormant volcanoes.[25] The volcanism is triggered by the subduction of the Nazca Plate underneath the South America Plate, which takes place off the western coast of South America.[27]

The basement is formed by Precambrian and Paleozoic rocks, which are covered by Mesozoic and Cenozoic sediments and volcanites.[10] The volcano is part of a 30 kilometres (19 mi) long, fault-controlled chain of volcanoes, which includes Cerro Grande, Yarihuato, Puca Ccasa, Sara Sara, Puca Puca and Cerro Queñuapunco.[10] A major geological lineament known as the Sara Sara lineament[28] runs across the volcano in northwest-southeast direction.[29]

A depression west of Sara Sara which contains the Laguna Parinacochas[30] may be the source of the regional Caraveli ignimbrite[31] that was emplaced 8-9 million years ago.[32] This depression constitutes the 25 by 35 kilometres (16 mi × 22 mi) wide Incahuasi caldera, which may be connected to the magmatic system of Sara Sara.[33]

During its history, Sara Sara has produced andesite, dacite, rhyolite and trachyandesite, with dacite predominating during Quaternary eruptions.[5][34] The rocks define a potassium-rich calc-alkaline suite.[34] Phenocrysts in the rocks include amphibole, biotite, hornblende, iron-titanium oxide, plagioclase, quartz, sanidine and sphene, and both their quantity and chemistry varied between various stages of activity.[35][34] The volcaniclastic rocks of Sara Sara define the Sara Sara Formation, a geological formation defined for the western sector of the volcano.[36] The Sara Sara volcanics are sometimes considered part of the Barroso Group of volcanic rocks.[37]

Climate, vegetation and economic activity

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The climate shows altitudinal zonation, with temperatures ranging from 20–6 °C (68–43 °F) in the valleys to freezing temperatures above 5,200 metres (17,100 ft). Precipitation is seasonal and mostly falls during summer, at higher elevations in the form of hail and snow[38] which covers the ground for months. There are no close weather stations, but above 4,500 metres (14,800 ft) elevation the climate is always cold with temperatures never rising above 5 °C (41 °F).[39]

Trees grow at lower elevations, while only ichu and quinua are present above 4,000 metres (13,000 ft). Alfalfa and maize are cultivated at lower altitudes.[38] Animal husbandry, small commerce and tourism complete the economic activities of the region.[39]

Eruption history

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Sara Sara was active during the last 2 million years[3] and produced the lower Barroso and Lampa Volcanics.[5] Fresh lava and pyroclastic flows imply recent activity.[6] The volcanic activity has been subdivided into four stages:[40]

  • Some publications define a first stage featuring lava flow and lava dome emissions.[41]
  • The first stage featured an alternation of explosive eruptions and effusive eruptions. Two events took place 500,000±270,000 and 370,000±150,000 years ago.[42] It also featured a sector collapse in the northeastern sector of Sara Sara.[43]
  • During the second stage lava domes grew and collapsed on the volcano, one such event occurred 162,000±20,000 years ago on the eastern flank.[42]
  • The third stage consisted of dacitic lava flows that built the actual cone of the volcano, beginning 63,000-58,000 years ago.[42]
  • Sometimes considered part of the third stage,[44] the last stage produced 14 kilometres (8.7 mi) long lava flows from[40] a cone named Yana Ranra on the eastern flank.[45] This flow is dated to 14,000±4,000 years ago.[34]

Two pyroclastic flows dated to 44,500 and 49,200 years before present[46] and lava flows with ages of 340,000±60,000 to 50,000±10,000 years ago.[47] Sara Sara is currently classified as a dormant volcano[5] and there is seismic activity.[48] The occurrence of fumarolic activity was reported in 1963.[3] Hot springs are found northeast of Sara Sara in the Quilcata valley and close to the town of Chacaraya, implying the presence of a shallow magma chamber.[6]

Hazards and monitoring

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The volcano is considered to be "moderately dangerous" by the Peruvian Geological Service.[49][50] Future eruptions may endanger a population of 12,000[21]-8,000 around the volcano, which would be threatened by lahars, pyroclastic flows and tephra fallout.[3] Aside from Pausa, other towns and Lake Parinacochas (an important source of water for the region) are located close to the volcano.[6] Volcanic hazard maps have been published.[51] Since 2018, the volcano is monitored by the Peruvian Geological Service;[52] Macedo Sánchez 2016 recommended seismic and other monitoring techniques for Sara Sara.[53]

Archeology and religious importance

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A flat area with sparse trees and rocks in the foreground: On the left a low ridge and in the background a snowcovered mountain
Sara Sara and Lake Parinacochas (foreground) as seen from Inka Wasi

The mountain was worshipped by local populations in and before Inca time, and the Inca performed human sacrifices on it.[54] During Inca times it was part of the Kuntisuyu province.[55]

According to the writings of a cleric Cristóbal de Albornoz, who beginning in 1570 wrote about local religious practices, the local population considered Sara Sara a sacred mountain and offered gold, silver, animals and servants to it.[54] In 1996, archaeologists discovered a burial in a collapsed structure just northeast of the summit and recovered a body.[56] This mummy was nicknamed "Sarita" and appears to be a 15-year old girl.[57] It was accompanied by the remnants of offerings and the ice surrounding the body had melted. Additional offerings such as a llama and a silver object were also recovered from the summit.[56]

Stone walls are found on the ridge at the summit of Sara Sara.[58] They were initially described in 1982 by the archeologist Johan Reinhard, who described them on the northern summit.[56] In 1941, copper objects were found on its flanks.[58] The Yanapunku cave at 5,000 metres (16,000 ft) elevation features bones and ceramics from the Inca and Wari cultures. Incaptiana is a site at the top of a hill at 4,565 metres (14,977 ft) elevation where Inca buildings were identified.[56]

See also

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References

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  1. ^ Sara Sara on Peakbagger.com
  2. ^ "Sara Sara". Global Volcanism Program. Smithsonian Institution. Retrieved 29 June 2021.
  3. ^ a b c d e f g Macedo Sánchez 2016, p. 16.
  4. ^ a b Smith, Jacqueline A.; Seltzer, Geoffrey O.; Rodbell, Donald T.; Klein, Andrew G. (September 2005). "Regional synthesis of last glacial maximum snowlines in the tropical Andes, South America". Quaternary International. 138–139: 151–152. Bibcode:2005QuInt.138..145S. doi:10.1016/j.quaint.2005.02.011. ISSN 1040-6182.
  5. ^ a b c d Morche & Núñez Juárez 1998, p. 1.
  6. ^ a b c d Morche & Núñez Juárez 1998, p. 3.
  7. ^ a b c d Dornbusch 2002, p. 107.
  8. ^ Morche & Núñez Juárez 1998, p. 4.
  9. ^ a b Dornbusch 2002, p. 106.
  10. ^ a b c d Morche & Núñez Juárez 1998, p. 9.
  11. ^ Rivera Porras et al. 2020, p. 14.
  12. ^ Morche & Núñez Juárez 1998, p. 10.
  13. ^ Martínez Valladares & Cervantes Gárate 2003, p. 9.
  14. ^ Morche & Núñez Juárez 1998, pp. 3–4.
  15. ^ a b Rivera Porras et al. 2020, p. 39.
  16. ^ Rivera Porras et al. 2020, p. 40.
  17. ^ Dornbusch 2002, p. 108.
  18. ^ Dornbusch 2002, pp. 107–108.
  19. ^ Dornbusch 2002, p. 110.
  20. ^ Rivera Porras et al. 2020, p. 83.
  21. ^ a b Rivera Porras 2018, p. 89.
  22. ^ Dornbusch 2000, p. 2.
  23. ^ Dornbusch 2000, p. 6.
  24. ^ Mercado Ávalos, Lizandro (July 1972). Estudio definitivo del proyecto de irrigación de Pausa, Parinacochas - Ayacucho (Report) (in Spanish). Fondo Nacional de Desarrollo Económico (FNDE). hdl:20.500.12543/4210.
  25. ^ a b Thouret, Jean-Claude; Rivera, Marco; Wörner, Gerhard; Gerbe, Marie-Christine; Finizola, Anthony; Fornari, Michel; Gonzales, Katherine (1 July 2005). "Ubinas: the evolution of the historically most active volcano in southern Peru" (PDF). Bulletin of Volcanology. 67 (6): 558. Bibcode:2005BVol...67..557T. doi:10.1007/s00445-004-0396-0. ISSN 1432-0819. S2CID 129294486.
  26. ^ Rivera Porras et al. 2020, p. 11.
  27. ^ Goss, A.R.; Kay, S.M.; Mpodozis, C.; Singer, B.S. (July 2009). "The Incapillo Caldera and Dome Complex (~28° S, Central Andes): A stranded magma chamber over a dying arc". Journal of Volcanology and Geothermal Research. 184 (3–4): 391. Bibcode:2009JVGR..184..389G. doi:10.1016/j.jvolgeores.2009.05.005. ISSN 0377-0273.
  28. ^ Martínez Valladares & Cervantes Gárate 2003, p. 16.
  29. ^ Martínez Valladares & Cervantes Gárate 2003, Map3.
  30. ^ Rivera Porras et al. 2020, p. 45.
  31. ^ De La Rupelle, A.; Thouret, J. C.; Cubukcu, H. E.; Jicha, B.; Bréard, E.; Gerbe, M.-C.; Le Pennec, J.-L.; Diot, H.; Boivin, P. (1 April 2012). New stratigraphic, chronologic, and magnetic fabric constraints for Neogene and Quaternary ignimbrites in the Central Andes (South Peru). EGU General Assembly Conference Abstracts (Report). Vol. 14. p. 4807. Bibcode:2012EGUGA..14.4807D.
  32. ^ Thouret et al. 2016, pp. 9–10.
  33. ^ Le Pennec, Jean-Luc; Rivera Porras, Marco Antonio; Soncco Calsina, Yhon Hidelver; De la Rupelle, Aude; Paquette, Jean-Louis; Cueva Sandoval, Kevin Arnold; Vela Valdez, Jessica Carolina; Guillou, Hervé (September 2019). The Incahuasi resurgent caldera (Ayacucho Province, Peru), a site of high-magnitude explosive eruptions in Miocene times (Report). Instituto Geológico, Minero y Metalúrgico – INGEMMET.
  34. ^ a b c d Rivera Porras 2018, p. 91.
  35. ^ Morche & Núñez Juárez 1998, p. 19.
  36. ^ Olchauski Lomparte, Enrique (1980). Geología de los cuadrángulos de Jaqui, Coracora, Chala y Chaparra. Hojas: 31-ñ, 31-o, 32-ñ, y 32-o - [Boletín A 34] (Report). Instituto Geológico, Minero y Metalúrgico - INGEMMET.
  37. ^ Martínez Valladares & Cervantes Gárate 2003, p. 1.
  38. ^ a b Morche & Núñez Juárez 1998, pp. 5–6.
  39. ^ a b Rivera Porras et al. 2020, p. 18.
  40. ^ a b Cueva Sandoval et al. 2018, p. 4.
  41. ^ Rivera Porras et al. 2020, p. 53.
  42. ^ a b c Rivera Porras 2018, p. 90.
  43. ^ Cueva Sandoval et al. 2018, p. 3.
  44. ^ Rivera Porras 2018, pp. 90–91.
  45. ^ Cueva Sandoval et al. 2018, Fig2.
  46. ^ Juvigné, Etienne; Thouret, Jean-Claude; Loutsch, Isabelle; Lamadon, Sébastien; Frechen, Manfred; Fontugne, Michel; Rivera, Marco; Dávila, Jasmine; Mariño, Jersy (1 June 2008). "Retombées volcaniques dans des tourbières et lacs autour du massif des Nevados Ampato et Sabancaya (Pérou méridional, Andes Centrales)". Quaternaire (in French). 19 (2): 159. doi:10.4000/quaternaire.3362. hdl:20.500.12544/669. ISSN 1142-2904.
  47. ^ Thouret et al. 2016, p. 10.
  48. ^ Centeno Quico & Rivera 2020, p. 30.
  49. ^ Del Carpio Calienes, José Alberto; Rivera, Marco; Torres, José; Tavera, Hernando; Puma, Nino (August 2022). "Evaluación del peligro volcánico en Perú: una herramienta para la gestión del riesgo de desastres": 69. {{cite journal}}: Cite journal requires |journal= (help)
  50. ^ Macedo Sánchez 2016, p. 29.
  51. ^ Rivera Porras et al. 2020, p. 126.
  52. ^ Centeno Quico & Rivera 2020, p. 13.
  53. ^ Macedo Sánchez 2016, p. 36.
  54. ^ a b Schreiber, Katharina (1 January 2004). "Sacred Landscapes and Imperial Ideologies: The Wari Empire in Sondondo, Peru". Archeological Papers of the American Anthropological Association. 14 (1): 137. doi:10.1525/ap3a.2004.14.131. ISSN 1551-8248.
  55. ^ Ceruti, Maria Constanza (6 August 2015). "Frozen Mummies from Andean Mountaintop Shrines: Bioarchaeology and Ethnohistory of Inca Human Sacrifice". BioMed Research International. 2015: 5. doi:10.1155/2015/439428. PMC 4543117. PMID 26345378.
  56. ^ a b c d Chávez, Chávez; Antonio, José (July 2001). "Investigaciones arqueológicas de alta montaña en el Sur del Perú". Chungará (Arica). 33 (2): 283–288. doi:10.4067/S0717-73562001000200014. ISSN 0717-7356.
  57. ^ Wilson, Andrew S.; Taylor, Timothy; Ceruti, Maria Constanza; Chavez, Jose Antonio; Reinhard, Johan; Grimes, Vaughan; Meier-Augenstein, Wolfram; Cartmell, Larry; Stern, Ben; Richards, Michael P.; Worobey, Michael; Barnes, Ian; Gilbert, M. Thomas P. (16 October 2007). "Stable isotope and DNA evidence for ritual sequences in Inca child sacrifice". Proceedings of the National Academy of Sciences. 104 (42): 16456–16461. Bibcode:2007PNAS..10416456W. doi:10.1073/pnas.0704276104. PMC 2034262. PMID 17923675.
  58. ^ a b Ricker, John F. (1977). Yuraq Janka: Guide to the Peruvian Andes, by John F. Ricker. The Mountaineers Books. pp. 3–4. ISBN 978-1-933056-70-8.

Sources

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